Our Systems:

• Enlarged Commercial Grey System
• Enlarged Grey & Rain System
• Grey & Rain System on Grading Plan

Filter Sytem Installation Video

The operative principle of all our systems is the same  - we use greywater (shower, tub, bathroom sink, laundry water, RO tail water, etc.) as it is produced, keeping that water highly oxygenated and thus good for plant life, and keeping the filter systems and downstream piping and tubing relatively free of clogging due to aerobic and anaerobic growth.  Our process also minimizes the space required for a filter system, which minimizes the cost of that filter system and the property required to house it.

The difference between our pre-engineered filter units is in the size of the surge tank, size of piping connecting to it, pump pressure and capacity, and filter vessel flow rating.  Almost all single-family residences use one of our two basic models, either the RWF2, RWAF2 or RWAF3 (the "A" is for "automatic").  The model RWF2 and RWAF2 have 2" piping connections and can handle the water from up to 4 showers, tubs, and/or laundry drains, i.e., "fixtures" without overflowing to the sanitary sewer. The RWAF3 has 3" piping connections and can handle up to approximately 17 fixtures.  For commercial sized systems, our RWAF4 and larger listed systems have larger piping connections as required for your application. 

When selecting a filter system for a single-family residence, choose a tank, pump, and filter that can handle the potential maximum surge from your combined water sources, or you may periodically lose high-peak-surge water to the overflow.  As an example, if you have 5 regularly-used showers that can each produce 2.5 gallons of water per minute (GPM) and a clothes washer that can produce 12.5 GPM but only for two minutes, your maximum surge is 25 GPM over two minutes when all those fixtures are in simultaneous use.  Our standard 120 VAC pump distributes 50 GPM at level elevation with good irrigation pressure, when enough emitters are downstream to omit that volume, so our standard 70 gallon tank can usually handle that 50 gallon surge with our standard pump and filter vessel.  See the chart below for some standard pump flows, using 40 feet of head as the minimum required pressure on level property. 

Single-family sized pumps are 120 VAC single phase, even our ultra-high pressure model.  208 VAC single phase and 220 VAC single phase filter systems are standard on larger systems and require the correct controller. 

Note 1: All automation is provided by a ReWater controller, which needs 120 VAC.   A controller is included in all irrigation packages.  When ordering your irrigation package, you must know your pump's electrical requirement, as the controller's relay must be the correct voltage for that pump.  Our controllers come standard with a 120 VAC relay, which all but large commercial pumps require.

Note 2: For lifting water above the tank/pump location and irrigating with it, you will need extra pump pressure to achieve the same irrigation pressure as if you were irrigating at the same elevation as the pump.  If pumping uphill, you will need to order our ultra high pressure 120 VAC pump.  Our ultra high pressure pump can lift water 60' vertically and still produce sufficient irrigation pressure to utilize ReWater's published hydraulic operating parameters chart.

Note 3:  For Arizona-type ReWater systems that rely on smaller orifice emitters than our underground drip emitters, your filter unit may need a larger surge tank, to keep from periodically losing high-peak-surge greywater to the overflow.  Small surface emitters do not flow as fast, thus empty the surge tank as fast, as ReWater's 12 GPH underground emitters.  You could achieve the same tank-emptying rate as our published hydraulic operating parameters chart indicates for our underground emitters by adding a lot of small surface emitters downstream of each irrigation valve, but it is easier to simply install a larger surge tank in the beginning than have to worry about designing your irrigation system around this water-storage issue.

Note 4: When using bubblers or some other type of surface distribution system, you only need to consider how much water can potentially be surging out of your building and accommodate that surge flow rate with an appropriately sized irrigation system, or use a larger surge tank, or some compromise of the two.

For multi-family, commercial, and institutional systems, the most common high surge is usually a more cost-effective design target than the maximum surge potential from the building.  For example, in a 100 unit apartment building capable of producing 125 GPM from showers and 50 GPM from lavatories, for a total possible surge of 175 GPM, the most common high surge will occur in the hours of 6:30 - 7:30 a.m., when many people shower right before going to work.  The "most common" surge considers that, while many people shower at night and use bathroom sinks in the evening hours too, the total surge occurs over a wider range of hours, thus the need for a much larger tank is diminished.  Many other factors such as lift and distance, and soil type and plant selection, come into play when designing larger filter and their accompanying irrigation systems.  ReWater regularly consults on the design, engineering, and construction of greywater irrigation systems and can do so for you.

How a ReWater filter system operates:

When pump (L) turns on because float switch (M) rises in water in tank (A) during the irrigation cycle, water is sent to the top of filter canister (I) and forced down through the 12 grit sand filter media, where hair, lint, and other debris is trapped in tiny spaces between the sand particles. Water then travels out to a series of irrigation valves for use in the yard.  Larger systems have larger surge tanks and pumps, but act on the same principle of using water as it is produced, instead of storing it.  This keeps the water fresh and oxygenated, which is good for plants.  Our controller starts and stops based on water availability, and our filter is backwashed with fresh water based on accumulated run-time.

NEED HELP FIGURING IT ALL OUT FOR YOUR SPECIFIC PROJECT?  WE DO CONSULTING, AND OUR CONSULTING FEES UP TO $600 CAN BE DEDUCTED FROM THE PURCHASE PRICE OF A COMPLETE REWATER FILTER UNIT AND IRRIGATION UNIT.